RU139320U1 - CONTAINER FOR RADIOACTIVE MATERIAL (MATERIAL) - Google Patents

Abstract

1. A container for storing radioactive substances, which is a lead cylinder with a hollow channel inside for storing a capsule with a source, characterized in that an insert made in the form of a metal tube is installed in the container. A radioactive storage container according to claim 1, characterized in that the container body consists of two symmetrical half-cylinders. A container for storing radioactive substances according to claim 1, characterized in that the container has a wall thickness of 30 mm

Description

The utility model relates to the field of medical technology, namely to devices for radiation therapy of cancerous tumors.

Currently, it is widely known to use for storage of radioactive sources from Cobalt-60 and Iridium-192 used in radiation therapy, in particular brachytherapy, containers of tungsten and uranium. These containers include containers used in the apparatus for brachytherapy AGAT-VT (VNIITFA, RF), Multisource HDR (Eckert & Ziegler BEBIG GmbH). The containers are made of tungsten and have a weight of about 170 kg.

The disadvantages of the known containers include their large mass and high price.

Recently, there have been proposals to use Ytterbium-169 as a radiation source for brachytherapy. This choice is due to several advantages relative to standard sources Cobalt-60 and Iridium-192, Ytterbium-169 has a softer gamma-ray spectrum, less than a hundred keV (92 keV), high specific activity - up to 6 Ci / mg for pure Ytterbium-169 versus 0.6 Ci / mg for Iridium-192, has a lower dose burden on healthy tissues, and also facilitates the solution of the screening issue.

The closest analogue is a container for storing radioactive substances, which is a lead cylinder with a hollow channel inside for storing a capsule with a source (RU 20081465 C1, 06/10/1997). However, this design does not provide reliable shielding of radioactive radiation, and the inner walls of the hollow cylinder are not protected by more dense material from mechanical damage that occurs when entering the capsule with the source.

The problem to be solved by the claimed utility model is directed: elimination of the indicated disadvantages. The technical result consists in creating a device that provides more reliable shielding, while protecting the inner walls of the container from mechanical damage, as well as in expanding the arsenal of technical equipment of the same purpose.

The problem is solved by using a container for storing radioactive substances, which is a lead cylinder with a hollow channel inside for storing a capsule with a source, while a container made in the form of a metal tube is installed in the container.

In the particular case of the implementation of the utility model, the metal tube is made of aluminum.

It is preferable to make a cylinder of two symmetric half-cylinders with a curved channel along the longitudinal axis of each. In this case, the channel is aligned with the storage cylinder. The channel hole has a rectilinear shape, with a p-shaped bend in the center relative to the vertical axis of the cylinder. Preferably, the container has a wall thickness of 30 mm. The channel is used to introduce a source inside it between treatment sessions. When inside the store, the sources are located inside the u-shaped bend. The shape of the channel allows you to use two capsules with the source at the same time.

The use of such a container design allows more reliable shielding of the source radiation at the ends of the container compared to peers, while maintaining a high degree of protection on its sides.

The inventive utility model is illustrated by the following figures. Figure 1 shows the container assembly. Figure 2 shows a half-cylinder of the container body.

The container consists of a prefabricated housing 1, channel 2 for inputting the source, fasteners 3. Channel 2 has a p-shaped bend 4. Insert 5 into channel 2.

Using the inventive container allows you to reduce the cost of the product by 600 times and weight by 30 times.

Claims (3)

1. A container for storing radioactive substances, which is a lead cylinder with a hollow channel inside for storing a capsule with a source, characterized in that an insert made in the form of a metal tube is installed in the container. 2. A container for storing radioactive substances according to claim 1, characterized in that the container body consists of two symmetrical half-cylinders. 3. The container for storing radioactive substances according to claim 1, characterized in that the container has a wall thickness of 30 mm

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